Agricultural bag loading apparatus braking mechanism

ABSTRACT

An improved brake mechanism is disclosed for use on an agricultural bag loading apparatus (10) having a pair of cable drums (20, 21) secured to the loading apparatus for deploying cables (18, 19) attached to the filled end of an agricultural bag (12). The brake mechanism comprises a disc brake rotor (23) rigidly secured to one end of a brake drum (20), a plurality of disc brake calipers (25) secured to the loading apparatus (10) and a hydraulic fluid pressurizer (29). Braking action between the rotor (23) and the calipers (25) permits control of the compression of the material packed within the agricultural bag (12).

TECHNICAL FIELD

The present invention relates to an improved braking mechanism for anagricultural bag loading apparatus for loading silage and the like intoagricultural bags.

BACKGROUND ART

It is known to store agricultural products such as silage and the likein the field in large plastic bags referred to as agricultural bags.Such bags are generally designed to be filled from one end and may havea diameter in excess of 10 feet and a length of up to 100 feet or more.

Machines have been developed to load silage and other agriculturalproducts into such agricultural bags. A known conventional agriculturalbag loading apparatus includes a housing with a rotating shaft mountedtherein. The shaft has a plurality of teeth extending outwardlytherefrom which are arranged in a generally even, albeit random patternover the surface of the shaft. As the shaft rotates, the teeth forcesilage into an agricultural bag which has been secured adjacent to theloading apparatus. As silage is loaded into the bag, the loadingapparatus is moved away from the filled end of the bag in a controlledmanner by use of a braking mechanism.

It is known to move the loading apparatus away from the filled end ofthe bag in a controlled manner by securing the filled end of the bag tothe loading apparatus with a cable played out in response to the forcescreated by the compressed silage. Generally, two cables are employed,each disposed on one side of the agricultural bag. Each cable is thenwrapped around separate .[.cabl.]. .Iadd.cable .Iaddend.drums in asingle layer to avoid excessive wear of the cable. Each drum isrotatably mounted on the corresponding side of the loading apparatus.The two cable drums are rigidly connected by means of a connecting shaftrunning transversely through the loading apparatus so that rotation ofthe two drums is identical. It is known to secure a toothed gear to oneend of this connecting shaft and secure a tensioned chain about theouter perimeter of this gear. This tension chain also is secured aboutthe outer perimeter of a second, smaller diameter toothed gear which ismounted on a braking device. Typically, this braking device comprises acommon automotive type disc brake, with a caliper and rotor, and a handoperated hydraulic pump with pressure measuring devices to monitor theresistance to rotation between the calipers and rotor.

Although known agricultural bag loading apparatus braking mechanisms ofthis type have performed adequately, several difficulties have beenencountered in operation and maintenance. The connecting shaft hasoccasionally sheared between the connecting shaft gear and theimmediately adjacent cable drum. That particular portion of theconnecting shaft must resist the torque of both cable drums, and issubject to a bending moment caused by the tension within the chain.

SUMMARY OF THE INVENTION

The foregoing and other problems associated with conventional brakingmechanisms on agricultural bag loading machines are solved by means ofthe present invention. The present invention eliminates the need forgears and an interconnecting chain in the brake mechanism.

In accordance with the present invention, a truck type disc brake rotoris welded to one end of a cable drum. The rotor not only acts to confinethe cable on the drum, but in addition interacts with two calipersmounted on the frame of the loading apparatus. The interaction of thesecalipers and the rotor provides resistance to rotation of the drumdeploying the cable. Rotation of the drum on the opposite side of theloading apparatus is similarly resisted as the connecting shaft rigidlyinterconnects the two drums.

In accordance with the present invention, the torque induced in theconnecting shaft is reduced, with only the torque induced by one of thecable drums remaining. The application of forces resisting rotation ofthe cable drum on a rotor mounted at the end of said cable drum inaccordance with the present invention also eliminates any stresses inthe connecting shaft present in the known method as a result of thetension in an interconnecting chain.

BRIEF DESCRIPTION OF THE DRAWINGS

A more complete understanding of the invention may be had by referenceto the following Detailed Description when taken in conjunction with theaccompanying Drawings, wherein:

FIG. 1 is a perspective view of the agricultural bag loading apparatusshowing the braking mechanism thereof, as well as the output chamber anda partially filled agricultural bag secured thereto;

FIG. 2 is a perspective view of the cable drum and braking mechanism asviewed generally from the intake chamber of the loading apparatus towardthe output chamber;

FIG. 3 is a view of the brake mechanism, .[.coke.]. .Iadd.cable.Iaddend.drum and hydraulic brake actuation mechanism as viewed from theside of the loading apparatus.

DETAILED DESCRIPTION

Referring now to the drawings in which like reference charactersdesignate like or corresponding parts throughout the several views,there is shown in FIG. 1 a perspective view of an agricultural bagloading apparatus 10 embodying the present invention. An agriculturalbag 12, shown in phantom lines, is mounted on the loading apparatus 10and partially filled with silage. The agricultural bag 12 is gatherednear the bag mouth 14 in an accordian like fashion. As silage is fedinto the agricultural bag 12, the loading apparatus 10 moves away fromthe filled end of the bag and the gathered portion of the bag expands toallow the bag to be filled.

A backstop 16, also shown in phantom lines, is positioned at the filledend of the agricultural bag 12. The backstop 16 is made of a suitableflexible material such as netting and conforms to the shape of the endof the agricultural bag 12. Cable 18 extends between the backstop 16 androtatable cable drum 20 on one side of the agricultural bag 12.Similarly, a second cable 19 extends between the backstop 16 androtatable cable drum 21, shown in phantom lines, on the opposite side ofagricultural bag 12. Drums 20 and 21 are mounted at the ends ofconnecting shaft 28, thereby ensuring joint rotation of both drums. Assilage is forced into the agricultural bag 12 by means describedhereinafter, the tension in cables 18 and 19 is increased. The rotationof the drums 20 and 21 and deployment of cables 18 and 19 from drums 20and 21 are resisted by the brake mechanism forming the inventive conceptof the present disclosure. Thus, the motion of the loading apparatusaway from the filled end of the bag is yieldably resisted by the brakemechanism. The tension on the cables 18 and 19 is applied uniformly andevenly against the filled end of the agricultural bag 12 by the backstop16. In this manner, the silage within the agricultural bag 12 iscompressed at a pressure corresponding to the braking force induced bythe brake mechanism.

The brake mechanism of the present invention comprises a disc brakerotor 23, a pair of brake calipers 25 and a hydraulic fluid pressurizer29. Rotor 23, of a type commonly employed with a disc brake system of anautomobile or truck, is welded to one end of cable drum 20. Dualcalipers 25 are rigidly mounted to the frame of the loading apparatus 10and are positioned such that, upon the application of hydraulic pressureto each caliper 25, the pistons 27, located within the calipers as shownin FIG. 2, are urged into contact with the outer surface of the rotor 23to resist relative motion therebetween. The hydraulic pressure for thisprocess is provided by hydraulic fluid pressurizer 29, which may be ofany common type, but is preferably a hand operated pump 112 as shown inFIG. 3.

Conventional means are used to secure the loading apparatus 10 to thetractor 24 for towing the loading apparatus 10 from place to place. Asthe agricultural bag 12 is filled with silage, the loading apparatus 10is inched forward so that the bottom of the bag 12 remains stationarywith respect to the ground. In some applications, it may be preferred toallow the loading apparatus 10 to remain stationary with respect to theground while silage is loaded into the agricultural bag 12. In thislatter case, the bottom of the agricultural bag 12 will be forced toslide along the ground or other support surface as it is filled. Theloading apparatus 10 is mounted on four wheels 26 that may rotatethrough an angle of 90°. Thus, the loading apparatus 10 may be movedlaterally for transport as well as forwardly and rearwardly forpositioning and use.

The agricultural bag 12 and the backstop 16 are shown in phantom in FIG.1 so that the output chamber 32 may be seen. The lower portion of outputchamber 32 is defined by a horizontal bottom 34 with two side walls 36extending upwardly therefrom. The upper portion of the output chamber 32is defined by two inclined side wall sections 38 and a back wall 40which abuts the side wall sections 38 and is inclined rearwardly fromits base to its apex.

Silage is forced into the output chamber 32 by means of teeth 46 rigidlyattached to a primary shaft 52 as shown in FIG. 3, through a passageway42. An inclined shield 44 is mounted on the bottom surface 34 in thecenter of the passageway 42. Gaps are left on either side of the shield44 and the side walls 36 so that silage is more easily forced throughthe passageway 42 along the sides of the output chamber 32 than in thecenter of the chamber 32. As the teeth 46 pass out of the output chamber32, a comb 48 strips silage from the teeth 46, retaining the silage inthe output chamber. A hydraulic motor 22 rotates primary shaft 52 andteeth 46. The power for motor 22 is provided from a hydraulic pumpdriven by tractor 24.

Referring now to FIG. 2, greater detail of cable drum 20, rotor 23 andcalipers 25 may be seen. Cable drum 20 is securely attached near one endof connecting shaft 28. As shown in phantom lines in FIG. 1, cable drum21 is rigidly secured near the opposite end of connecting shaft 28. Endbearings 30, located at both ends of connecting shaft 28, serve to mountconnecting shaft 28 on loading apparatus 10 for rotation about ahorizontal axis transverse to the length of the apparatus 10. Anadditional bearing 31 is provided for connecting shaft 28 immediatelyadjacent to the inner end of cable drum 20. Bearing 31 is mounted withinpillow block 56, which is bolted by means of bolts 57 to bearing block58 forming a portion of the frame of loading apparatus 10.

Brake rotor 23 is welded to drum 20 at the periphery of the outer end ofcable drum 20 as shown. The rotor thereby not only functions as aportion of the brake mechanism, but in addition, acts to confine cable18 on the drum 20. Rotor 23 may be of the type commonly employed onautomobiles or trucks. It may be constructed of a solid piece ofmaterial, or have cooling fins formed therein.

Dual calipers 25 are rigidly mounted to the frame of loading apparatus10, and are so situated as to interact in a braking relationship withrotor 23. There are shown two calipers, however it is clear that thepresent disclosure could include a single caliper, or three or morecalipers suitably positioned about the rotor. It is also clear that thecaliper may contain one, two or more pistons 27 therein for interactionwith the outer surface of rotor 23. Hydraulic line 93 supplies hydraulicfluid at high pressure from hydraulic fluid pressurizer 29 to one of thecalipers 23. Hydraulic line 94 interconnects the two calipers totransmit hydraulic pressure to the remote caliper.

Several loops of cable 18 are shown wrapped around cable drum 20. Bothcables 18 and 19 are typically wrapped around drums 20 and 21 in asingle layer to avoid excessive wear of the cable.

The advantages of the present invention are clearly apparent in FIG. 2.The tension on cable 18 induced by filling the agricultural bag 12induces a torque moment in cable drum 20. In the prior known art, thetorque in drum 20 was then transmitted into connecting shaft 28, then toa brake mechanism. The present invention relieves connecting shaft 28 ofthe necessity to absorb this torque, and instead directly transmits itto the braking mechanism, a portion of which is actually secured tocable drum 20.

Referring now to FIG. 3, a side view of loading apparatus 10 is shownlooking in a horizontal direction parallel to the axis of rotation ofconnecting shaft 28 and transverse to the direction of relative motionbetween the loading apparatus 10 and agricultural bag 12 duringoperation. Frame member 124 is clearly shown, forming the attachmentpoint for calipers 25 and the end bearing 30 of connecting shaft 28.Calipers 25 are mounted with bolts 126. End bearing 30 is mounted inbearing holder 128 secured to frame member 124 by four bolts 129. Aportion of cable 18 is shown extended from the surface of cable drum 20shown in phantom line.

During operation, silage is placed in intake chamber 50. Feederprojection 62 mounted on a feeder shaft 60 are used to precompress thesilage to a slight degree and ensure that an adequate supply of silageis always presented to teeth 46. Feeder shaft 60 is also rotated bymeans of hydraulic motor 22 and rotates on an axis parallel to the axisof rotation of primary shaft 52.

Hydraulic line 93 is shown connected to a hydraulic fluid pressurizer29. In the present embodiment pressurizer 29 comprises a hand pump 112,a hydraulic reservoir 113 and a hand operated pressure relief valve 114.It will be understood, however, that any other source of hydraulicpressure sufficient to operate the brake mechanism of the presentinvention is encompassed by this disclosure.

The cylinder 120 of hand pump 112 is rigidly secured to the frame ofloading apparatus 10. The operator of loading apparatus 10 maypressurize the system to the desired pressure by oscillating hand pumphandle 118 and observing pressure gauge 122. The braking force of thebrake mechanism is proportional to the pressure created in pump 112. Byvarying this pressure the resistance to rotation of cable drums 20 and21, deploying cables 18 and 19, may be varied, and the degree ofcompression of the silage within the agricultural bag 12 may beadjusted.

It is clear from FIG. 3 that the present invention has great advantagesover that known in the art. By eliminating the need for a chain and agear set between the brake device and connecting shaft 28, stressinduced in the connecting shaft 28 by the necessary chain tension iseliminated.

Although particular embodiments of the invention have been described inthe accompanying drawings and described in the foregoing detaileddescription, it will be understood that the invention is not limited tothe embodiments disclosed, but is capable of numerous rearrangements,modifications and substitutions of parts and elements without departingfrom the spirit of the invention.

I claim:
 1. An improved brake mechanism for deploying the attachmentmeans between the filled end of an agricultural bag and an agriculturalbag loading apparatus in response to the loading of material into saidagricultural bag, said improvement comprising:drum means rotatablymounted on said loading apparatus, said drum means deploying theattachment means upon rotation of said drum means in one direction; adisc brake rotor means forming one end of said drum means; disc brakecaliper means attached to said loading apparatus; and actuation meanscausing said disc brake caliper means to resist motion between said discbrake caliper means and said disc brake rotor means.
 2. The improvedbrake mechanism of claim 1 wherein said attachment means comprises aflexible cable.
 3. The improved brake mechanism of claim 1 wherein saidactuation means comprises pressurized fluid.
 4. The actuation means ofclaim 3 further comprising a manually operated hydraulic pump forsupplying said pressurized fluid.
 5. The actuation means of claim 3further comprising a pressure sensor and dial for indicating the fluidpressure and a pressure relief valve manually operated for releasing thefluid pressure.
 6. An improved brake mechanism for deploying theattachment means between the filled end of an agricultural bag and anagricultural bag loading apparatus in response to the loading ofmaterial into said agricultural bag, said improvement comprising:aplurality of drum means rotatably mounted on said loading apparatus andhaving said attachment means secured thereto, said drum means deployingsaid attachment means and lengthening the separation between the filledend of said agricultural bag and said loading apparatus upon rotation ofsaid drum means in one direction, said drum means storing excessattachment means; a disc brake rotor forming one end of at least one ofsaid drum means; a plurality of disc brake calipers attached to saidloading apparatus, said calipers surrounding said disc brake rotor sothat the pistons within said calipers will bear against said disc brakerotor to resist motion between said calipers and said disc brake rotor;and a variable pressure fluid pressurizer for pressurizing a fluidwithin said calipers and urging said pistons into contact with said discbrake rotor.
 7. The improved brake mechanism of claim 6 wherein saidattachment means comprises a flexible cable.
 8. The improved brakemechanism of claim 6 wherein said variable pressure fluid pressurizercomprises a manually operated hydraulic pump.
 9. The improved brakemechanism of claim 6 further comprising a pressure sensor and dial forindicating the pressure of the fluid within said brake mechanism. 10.The improved brake mechanism of claim 6 further comprising a pressurerelief valve manually operated for releasing the fluid pressure withinsaid brake mechanism.
 11. An improved brake mechanism for anagricultural bag loading apparatus for loading silage and the like intoan agricultural bag, said loading apparatus including an intake forreceiving silage, an output for discharging silage into an agriculturalbag, and a silage moving device for forcing silage from the intake intothe output and into the agricultural bag, said brake mechanismmaintaining a desired tension in a cable means connecting the filled endof said agricultural bag and said loading apparatus during the fillingoperation, said improvement comprising:a plurality of cable drum meansmounted for rotation on a common connecting shaft means on said loadingapparatus, said drum means having said cable means secured thereto anddeploying said cable means and lengthening the separation between thefilled end of said agricultural bag and said loading apparatus uponrotation of said drum means in one direction, said drum means storingexcess cable means during operation of said loading apparatus; a discbrake rotor secured to one end of one of said cable drum means, saidrotor forming a raised edge formed radially outwardly from the outersurface of said drum .[.mean.]..Iadd.means.Iaddend., said edgecontaining said cable means on said drum means; a plurality of discbrake calipers rigidly mounted on said loading apparatus and having aplurality of pistons moveably mounted in the body of said calipers, saidpistons being situated for urging against the outer surface of said discbrake rotor to resist relative rotation between said calipers and saidrotor; and a variable pressure fluid pressurizer urging said pistonsinto contact with said rotor.
 12. The improved brake mechanism of claim11 wherein said plurality of cable drum means comprises two cable drumsmounted on opposite ends of said connecting shaft means.
 13. Theimproved brake mechanism of claim 11 wherein said variable pressurefluid pressurizer is a manually operated fluid pump.
 14. The improvedbrake mechanism of claim 11 further comprising a pressure sensor anddial for indicating the fluid pressure in said brake mechanism andfurther indicating the degree of compression of the material within theagricultural bag.
 15. The improved brake mechanism of claim 11 furthercomprising a manually operated relief valve to relieve the fluidpressure in said brake mechanism. .Iadd.
 16. An improved brake mechanismfor deploying an attachment means between the filled end of anagricultural bag and an agricultural bag loading apparatus in responseto the loading of material into said agricultural bag, said improvementcomprising:drum means rotatably mounted on said loading apparatus, saiddrum means deploying the attachment means upon rotation of said drummeans in one direction, wherein said attachment means includes a cablewrapped around said drum means in a single layer to prevent excessivewear of said cable; a first brake portion forming one end of said drummeans; a second brake portion attached to said loading apparatus; andactuation means causing said second brake portion to resist motionbetween said second brake portion and said first brake portion..Iaddend. .Iadd.
 17. An improved brake mechanism for deploying a cablebetween the filled end of an agricultural bag and an agricultural bagloading apparatus in response to the loading of material into saidagricultural bag, said improvement comprising:a cable drum rotatablymounted on said loading apparatus, said cable drum deploying said cableupon rotation of said cable drum in one direction, wherein said cable iswrapped around said drum in a single layer to prevent excessive wear ofsaid cable; a first brake portion forming one end of said cable drum; asecond brake portion attached to said loading apparatus; and actuationmeans for causing said first and second brake portions to resistrotation of said cable drum. .Iaddend. .Iadd.
 18. An improved brakemechanism for resisting movement of the filled end of an agriculturalbag away from an agricultural bag loading apparatus in response to theloading of material into said agricultural bag from the agricultural bagloading apparatus to compress the material, the agricultural bag loadingapparatus having a connecting shaft rotatably mounted thereon the firstand second cable drums rigidly mounted on the connecting shaft for jointrotation with the connecting shaft proximate opposite ends of theconnecting shaft, each of the first and second cable drums playing out aflexible cable attached to the filled end of the agricultural bag, saidimprovement comprising:a first brake portion secured to the first cabledrum; and a second brake portion secured to the agricultural loadingapparatus, said first and second brake portions being activatable toresist rotation of the first and second cable drums to tension theflexible cables, the connecting shaft being required to transfer onlytorque sufficient to resist rotational motion of the second cable drum,wherein the flexible cables are wrapped around said first and secondcable drums in a single layer to prevent excessive wear of the cables..Iaddend.